A detection device for a radio frequency switch

By designing a support component and base structure for the RF switch testing device, the problem that RF switches can only be tested in the upright position was solved, enabling multi-directional testing and inverted testing, thus improving the applicability of the testing.

CN224383399UActive Publication Date: 2026-06-19SUZHOU LAIR MICROWAVE INC

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU LAIR MICROWAVE INC
Filing Date
2025-06-18
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing RF switch testing devices can only perform tests when placed upright and cannot adapt to other angles, resulting in significant limitations in testing.

Method used

A radio frequency switch testing device was designed. The radio frequency switch is fixed by the test through holes and mounting through holes of the support component, and the contact area is increased by the base to realize multi-directional testing.

Benefits of technology

It enables multi-directional detection of RF switches, improves the applicability of the detection device, and allows for inverted testing to obtain more comprehensive performance data.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a detection device of radio frequency switch for testing radio frequency switch, including the support piece and base of several Chinese characters, and the top of support piece is provided with test through -hole and a plurality of first installation through -hole, and a plurality of first installation through -hole is set up around test through -hole, and the bottom of support piece is provided with first fixed through -hole, and the second fixed through -hole is set up on the base, and the position of first fixed through -hole and the position of second fixed through -hole correspond, through the test through -hole of support piece loading radio frequency switch, make radio frequency switch enter the detection device of radio frequency switch, and first installation through -hole is used for fixing radio frequency switch, prevents radio frequency switch from falling off in the course of testing, thereby causes the influence to test, and then can detect radio frequency switch from each direction, solves the problem that radio frequency switch can only be placed in the positive direction and detects.
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Description

Technical Field

[0001] This utility model relates to the field of switch testing equipment technology, and in particular to a testing device for radio frequency switches. Background Technology

[0002] Radio frequency (RF) switches are widely used in communication technology due to their ease of use and ability to handle high-power devices. Because communication requires advanced technology, RF switches need to be tested to assess their performance. Currently, RF switch testing typically involves placing the switch upright, thus only providing data for that orientation. However, in communication applications, RF switches may be placed at other angles, making current testing methods quite limited. Utility Model Content

[0003] To overcome the above-mentioned shortcomings, the purpose of this utility model is to provide a testing device for radio frequency (RF) switches. The RF switch is mounted using the test through-hole of the support member, allowing it to enter the testing device. The first mounting through-hole is used to fix the RF switch, preventing it from falling off during testing and affecting the test results. This allows for testing of the RF switch from various angles, solving the problem that the RF switch can only be tested upright. The first fixing through-hole further fixes the RF switch to the support member. The base increases the contact area between the testing device and the ground, allowing the testing device to be placed stably on the ground, facilitating testing of the RF switch upside down, and thus improving the applicability of the testing device.

[0004] To achieve the above objectives, the technical solution adopted by this utility model is: a testing device for radio frequency switches, used to test radio frequency switches, including a U-shaped support and a base. The top of the support is provided with a test through hole and a plurality of first mounting through holes, the plurality of first mounting through holes being arranged around the test through hole. The bottom of the support is provided with a first fixing through hole, and the base is provided with a second fixing through hole, the positions of the first fixing through hole and the second fixing through hole corresponding to each other.

[0005] In this technical solution, the support uses test through-holes to mount the RF switch, thereby testing the RF switch. The first mounting through-hole is used to fix the RF switch, preventing it from falling off during the test and affecting the test. This allows the RF switch to be tested from various angles. The first fixing through-hole is used to further fix the RF switch to the support. The base is used to increase the contact area between the RF switch testing device and the ground, so that the RF switch testing device can be placed stably on the ground, facilitating the testing of the RF switch upside down. This allows the performance of the RF switch when it is upside down to be obtained, thereby improving the applicability of the RF switch testing device.

[0006] In some embodiments, the detection device for the radio frequency switch further includes a connecting wire that connects to the radio frequency switch.

[0007] In this technical solution, the connecting line is used to connect the radio frequency switch, thereby obtaining various data when the radio frequency switch is working.

[0008] In some embodiments, the radio frequency switch includes an electrical connector disposed at the bottom end of the radio frequency switch, and the connecting wire is connected to the radio frequency switch through the electrical connector.

[0009] In this technical solution, the electrical connector is used to connect the wire to the radio frequency switch, thereby receiving data from the radio frequency switch.

[0010] In some embodiments, the radio frequency switch further includes a switch body and a baffle, the electrical connector is disposed at the bottom end of the switch body, and the baffle is disposed at the end of the switch body away from the electrical connector.

[0011] In this technical solution, the switch body is used to install electrical connectors and baffles. The baffles are used to prevent the upper end of the RF switch from entering the detection device of the RF switch, thereby facilitating the removal of the RF switch.

[0012] In some embodiments, the radio frequency switch further includes a signal interface, and a plurality of the signal interfaces are disposed on the baffle.

[0013] In this technical solution, the signal interface is used for the RF switch to receive external signals, thereby controlling the RF switch.

[0014] In some embodiments, the detection device for the radio frequency switch further includes a fixing screw, which fixes the support and the base through the first fixing through hole and the second fixing through hole.

[0015] In this technical solution, fixing screws are used to fix the support and the base.

[0016] In some embodiments, the fixing screw includes a head and a shank, the head being fixed to the shank, and the shank being threaded.

[0017] In this technical solution, the nail head is used to rotate the nail rod, and the nail rod is fixed in the first fixing through hole and the second fixing through hole by threads.

[0018] In some embodiments, the top of the support member is further provided with an auxiliary loading groove, which is connected to the test through hole.

[0019] In this technical solution, the auxiliary loading slot facilitates the loading of the RF switch into the support component.

[0020] In some embodiments, the top of the support member is provided with two opposing protrusions, and the two protrusions form the auxiliary loading groove.

[0021] In this technical solution, the protrusion is used to restrict the baffle from entering the detection device of the radio frequency switch.

[0022] The beneficial effects of this utility model are that by using the test through-hole of the support member to mount the RF switch, the RF switch is placed inside the RF switch testing device. The first mounting through-hole is used to fix the RF switch, preventing it from falling off during the testing process and affecting the test. This allows the RF switch to be tested from various angles, solving the problem that the RF switch can only be placed upright for testing. The first fixing through-hole is used to further fix the RF switch to the support member. The base is used to increase the contact area between the RF switch testing device and the ground, so that the RF switch testing device can be placed stably on the ground, facilitating the testing of the RF switch upside down, thereby improving the applicability of the RF switch testing device. Attached Figure Description

[0023] Figure 1 This is a schematic diagram of a detection device for a radio frequency switch according to an embodiment of the present invention. Figure 1 ;

[0024] Figure 2 This is a schematic diagram of a detection device for a radio frequency switch according to an embodiment of the present invention. Figure 2 ;

[0025] Figure 3 This is a schematic diagram of a radio frequency switch according to an embodiment of the present invention;

[0026] Figure 4 This is a schematic diagram illustrating the docking of a detection device for an RF switch with an RF switch according to an embodiment of the present invention. Figure 1 ;

[0027] Figure 5 This is a schematic diagram illustrating the docking of a detection device for an RF switch with an RF switch according to an embodiment of the present invention. Figure 2 ;

[0028] In the diagram: 1. Support component; 11. Top end; 12. Test through hole; 13. First mounting through hole; 14. Bottom end; 15. First fixing through hole; 16. Auxiliary loading groove; 17. Protrusion; 2. Base; 21. Second fixing through hole; 3. RF switch; 31. Switch body; 32. Baffle; 33. Electrical connector; 34. Signal interface; 35. Second mounting through hole; 4. Connecting wire; 5. Fixing screw; 51. Screw cap; 52. Screw rod; 6. Signal wire; 7. Wrench; 8. Mounting screw. Detailed Implementation

[0029] The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, thereby making a clearer and more definite definition of the scope of protection of the present invention.

[0030] Combined with appendix Figure 1 and attached Figure 2 As shown, this utility model provides a testing device for an RF switch, which is used to test an RF switch 3. It includes a U-shaped support member 1 and a base 2. The top 11 of the support member 1 is provided with a test through hole 12 and a plurality of first mounting through holes 13. The plurality of first mounting through holes 13 are arranged around the test through hole 12. The bottom 14 at both ends of the support member 1 are respectively provided with first fixing through holes 15. The two sides of the base 2 are respectively provided with second fixing through holes 21. The positions of the first fixing through holes 15 and the positions of the second fixing through holes 21 correspond to each other. When the support member 1 is installed on the base 2, the first fixing through holes 15 cover the second fixing through holes 21.

[0031] The support 1 mounts the RF switch 3 via the test through-hole 12, thereby testing the RF switch 3. The first mounting through-hole 13 is used to fix the RF switch 3 to prevent it from falling off during the test, thus affecting the test. This allows the RF switch 3 to be tested from various angles. The first fixing through-hole is used to further fix the RF switch 3 to the support 1. The base 2 is used to increase the contact area between the RF switch testing device and the ground, so that the RF switch testing device can be placed stably on the ground, which is convenient for testing the RF switch 3 upside down, thereby obtaining the various performance of the RF switch 3 when it is upside down, and thus improving the applicability of the RF switch testing device.

[0032] Continue to combine with the appendix Figure 4 and attached Figure 5As shown, in some embodiments, the detection device for the radio frequency switch further includes a connecting line 4, which is connected to the radio frequency switch 3, thereby acquiring various data of the radio frequency switch 3 when it is working.

[0033] Continue to combine with the appendix Figure 4 As shown, in some embodiments, the radio frequency switch 3 includes an electrical connector 33, which is disposed at the bottom end 14 of the radio frequency switch 3. The connecting line 4 is connected to the radio frequency switch 3 through the electrical connector 33, thereby receiving data from the radio frequency switch 3.

[0034] Continue to combine with the appendix Figure 3 As shown, in some embodiments, the RF switch 3 further includes a switch body 31 and a baffle 32. The baffle 32 is rectangular, and the length of the diagonal of the baffle 32 is greater than the diameter of the test through hole 12. The electrical connector 33 is disposed at the bottom end 14 of the switch body 31, and the baffle 32 is disposed at the end of the switch body 31 away from the electrical connector 33. The switch body 31 is used to install the electrical connector 33 and the baffle 32. The baffle 32 is used to prevent the upper end of the RF switch 3 from entering the detection device of the RF switch, thereby facilitating the removal of the RF switch 3.

[0035] Continue to combine with the appendix Figure 3 As shown, in some embodiments, the radio frequency switch 3 further includes a signal interface 34, and a plurality of the signal interfaces 34 are disposed on the baffle 32. The signal interfaces 34 are used for the radio frequency switch 3 to receive external signals, thereby controlling the radio frequency switch 3.

[0036] Continue to combine with the appendix Figure 1 As shown, in some embodiments, the detection device of the radio frequency switch further includes a fixing screw 5, which fixes the support 1 and the base 2 through the first fixing through hole 15 and the second fixing through hole 21. The fixing screw 5 is used to fix the support 1 and the base 2.

[0037] Continue to combine with the appendix Figure 2 As shown, in some embodiments, the fixing screw 5 includes a screw head 51 and a screw shank 52. The screw head 51 is fixed to the screw shank 52, and the screw shank 52 is provided with threads. The screw head 51 is used to rotate the screw shank 52, and the screw shank 52 is fixed in the first fixing through hole 15 and the second fixing through hole 21 by the threads.

[0038] Continue to combine with the appendix Figure 1 As shown, in some embodiments, the top end 11 of the support member 1 is also provided with an auxiliary loading groove 16, which is connected to the test through hole 12. The auxiliary loading groove 16 facilitates the loading of the radio frequency switch 3 into the support member 1.

[0039] Continue to combine with the appendix Figure 1As shown, in some embodiments, the top 11 of the support member 1 is provided with two opposing protrusions 17, and the two protrusions 17 form the auxiliary loading groove 16. A groove is provided between the baffle 32 and the switch body 31, so as to facilitate the loading of the radio frequency switch 3 into the detection device of the radio frequency switch. The protrusions 17 are used to restrict the baffle 32 from entering the detection device of the radio frequency switch.

[0040] Continue to combine with the appendix Figure 4 As shown, the baffle 32 is provided with four second mounting through holes 35. After the radio frequency switch 3 is connected to the detection device of the radio frequency switch, the baffle 32 is fixed to the support member 1 by using mounting screws 8 through the first mounting holes and the second mounting holes.

[0041] Continue to combine with the appendix Figure 5 As shown, the signal line 6 is connected to the signal interface by using the wrench 7, thereby introducing the signal into the radio frequency switch 3.

[0042] In summary, this utility model provides a testing device for an RF switch. By using the test through-hole of the support member to mount the RF switch, the RF switch is placed inside the testing device. The first mounting through-hole is used to fix the RF switch, preventing it from falling off during the testing process and affecting the test. This allows for testing of the RF switch from various angles, solving the problem that the RF switch can only be tested upright. The first fixing through-hole is used to further fix the RF switch to the support member. The base is used to increase the contact area between the testing device and the ground, so that the testing device can be placed stably on the ground, facilitating testing of the RF switch upside down, thereby improving the applicability of the testing device.

[0043] The above embodiments are only for illustrating the technical concept and features of this utility model. Their purpose is to enable those skilled in the art to understand the content of this utility model and implement it. They cannot be used to limit the protection scope of this utility model. All equivalent changes or modifications made in accordance with the spirit and essence of this utility model should be covered within the protection scope of this utility model.

Claims

1. A testing device for radio frequency switches, used for testing radio frequency switches, characterized in that, The device includes a U-shaped support and a base. The top of the support has a test through hole and several first mounting through holes, which are arranged around the test through hole. The bottom of the support has a first fixing through hole, and the base has a second fixing through hole. The positions of the first fixing through hole and the second fixing through hole correspond to each other.

2. The detection device for radio frequency switches according to claim 1, characterized in that, It also includes a connecting wire that connects to the radio frequency switch.

3. The detection device for radio frequency switches according to claim 2, characterized in that, The radio frequency switch includes an electrical connector, which is disposed at the bottom end of the radio frequency switch, and the connecting line is connected to the radio frequency switch through the electrical connector.

4. The detection device for radio frequency switches according to claim 3, characterized in that, The radio frequency switch also includes a switch body and a baffle. The electrical connector is disposed at the bottom end of the switch body, and the baffle is disposed at the end of the switch body away from the electrical connector.

5. The detection device for radio frequency switches according to claim 4, characterized in that, The radio frequency switch also includes a signal interface, and several of the signal interfaces are disposed on the baffle.

6. The detection device for radio frequency switches according to claim 1, characterized in that, It also includes fixing screws, which fix the support and the base through the first fixing through hole and the second fixing through hole.

7. The detection device for radio frequency switches according to claim 6, characterized in that, The fixing screw includes a head and a shank, the head being fixed to the shank, and the shank having threads.

8. The detection device for radio frequency switches according to claim 1, characterized in that, The top of the support member is also provided with an auxiliary loading groove, which is connected to the test through hole.

9. The detection device for a radio frequency switch according to claim 8, characterized in that, The top of the support member is provided with two opposing protrusions, and the two protrusions form the auxiliary loading groove.